CONFIDENTIAL. VERSION: S-CG4-01rA-01-2010PG © 2010 SATO Corporation. All rights reserved.
Manufacturer SATO Zebra
Hardware Specifications
CG408 CG412 LP 2844 Model
List Price (Base Model) DT: (USD 595)
TT: (USD 695)
DT: (USD 750)
TT: (USD 850)
(USD 575)
Resolution 203dpi 305dpi 203 dpi
Max Print Speed 4 ips 4 ips
Print Method Direct thermal, thermal transfer Direct thermal
Max Print Area
4.09” (104 mm) to 11.81” (300 mm)
4.09” (104 mm) to ~
Memory
8 MB SDRAM; 4 MB Flash
256 KB SRAM; 512 KB Flash,
optional: 512 KB SRAM; 1 MB Flash
Dimensions 6.81” (H) x 7.05” (W) x 9.37” (D) 6.6” (H) x 7.6” (W) x 8.2” (D)
Weight DT: 3.5lbs (1.7kg), TT: 4.2lbs (1.9kg) 3.2 lbs (1.5 kg)
Media Specifications
0.98” (25mm) to 4.33”(110mm)
1” (25.4mm) to 4.25” (108mm)
Media Width
(Without backing paper) 0.87” (22 mm) to 4.21” (107 mm)
0.87” (25mm) to 11.93” (303mm) N.A. Media Length (Tear Off)
(Without backing paper) 0.87” (22 mm) to 11.81” (300 mm)
Media Thickness 0.002” (0.06 mm) to 0.007” (0.19 mm) N.A.
Max. Label Roll Outer Diameter 5.04” (128mm) N.A.
Inner Core Diameter 1.57” (40mm) N.A.
Max. Ribbon Outer Diameter N.A.
N.A.
Interface
USB
RS232/ LAN/ IEEE1284
USB
RS-232 (DB9)
Parallel (Centronics)
ZebraNet PrintServer II, Ethernet connectivit
y
Options
Cutter
Dispenser + Label present sensor
External media supply stand
RTC
Linerless Kit (Without Cutter)
Resident scalable fonts
Keypad
SATO Label Gallery™
Cutter
Asian and International Font Packs
Internal ZebraNet PrintServer II for Ethernet
connectivity
Dispenser with label taken sensor
CG4 is better
• Larger memory storage space
• Larger print area
• Higher print resolution
• Larger label roll outer diameter – print
more labels
• Compact Size
• Option of linerless labels
• Multiple Interface
• Comes with user-friendly keypad for ease
of data input
• Easy media loading
• Anti-microbial casing that comply with
industrial standards
• Safety top cover latch
• Distinctive chassis colour more resistant
to dirt & dust
• Strong & indestructible chassis built with
ABS (reinforced fibreglass) material